"You will be punished by the Lord of hosts with thunder and earthquake and great noise, with storm and tempest and the flame of devouring fire" (Isaiah 29:6) "I looked when He [Christ] opened the sixth seal, and behold, there was a great earthquake; and the sun became black as sackcloth of hair, and the moon became
like blood… And every mountain and island was moved out of its place" (Revelation 6:12,14)

Some worrying developments are taking
place at the Super Volcano located beneath Yellowstone National Park;
the kind of developments that were seen shortly before other volcanoes
erupted. Not only was there a sudden rise in the elevation of the
ground, and development of new cracks, but a gas called Helium-4, a very
rare type of Helium, has begun coming out of the surface. It is the
presence of this gas that has scientists quite concerned. If the
Yellowstone Super Volcano were to erupt, it would be 2,000 times bigger
than the eruption of Mount St. Helens in the 1980′s. Everything within
500 miles would be dead or destroyed within minutes, 2/3rds of the
entire United States would be covered in volcanic ash and the climate of
the entire planet would cool within a month. On top of that, just this
past week, the largest earthquake in the US took place just a few miles
from Yellowstone proving hot magma is on the move. Here’s what has
scientists concerned:Since late summer 2013, the Yellowstone GPS network has tracked a
small ” ground deformation episode” in north-central Yellowstone
National Park.During the past five months, the NRWY GPS station has recorded about
3.5 cm (1.4 in) of uplift (the ground is rising) and about 1 cm (0.4 in)
of southeastward ground movement, relative to a stable reference
station north of the Park.Measurements from other GPS stations in northern Yellowstone show
smaller displacements, forming a circular pattern of deformation
(circular — as in the round mouth of a volcano) consistent with a minor
pressurization (building-up underground), about 6 to 10 km (4-6 miles)
deep, near Norris Junction.What has scientists very concerned is that Yellowstone has suddenly begun emitting massive amounts of Helium-4. Helium-4 seems to be the predictor of activity, as proved with other volcanos.For instance, as the volcanic island of El Hierro, the smallest of
Spain’s Canary Islands, rumbled and groaned over the course of seven
months in 2011 and 2012, gases silently percolated up through the
island’s soil and groundwater.Eventually, a spectacular plume appeared off the southern coast of the island, a sign that El Hierro volcano, an underwater volcano just offshore, had finally erupted.[link to www.livescience.com]The team’s analyses show that, as the El Hierro volcano began to
stir, the crust fractured and helium, mostly from the mantle, flowed to
the surface. As the actual eruption began, gas flow at the surface
increased dramatically, and gas pressure beneath the island dropped.
Then as seismic activity at El Hierro picked up again, the crust
fractured and deformed extensively, and helium-4 became a larger
component of the total helium released on the island. Looking at the past ratios of helium at Yellowstone 1978:Helium isotope ratios (³He/4He) in Lassen Park and Yellowstone Park
volcanic gases show large ³He enrichments relative to atmospheric and
crustal helium indicating the presence of a dominant mantle-helium
component.[link to onlinelibrary.wiley.com]Study released today on Yellowstone helium:[link to www.nature.com]The scientists who revealed today’s information report the quantity
of helium-4 in Yellowstone’s gas emissions is hundreds to thousands of
times greater than it should be — a sign that the crust is releasing its
ancient stores of the rare isotope, the researchers said.”However, much
of the helium emitted from this region is actually radiogenic helium-4
produced within the crust by decay of uranium and thorium. Today’s
report shows by combining gas emission rates with chemistry and isotopic
analyses, that crustal helium-4 emission rates from Yellowstone exceed (by orders of magnitude) any conceivable rate of generation within the crust.”
This means the Helium -4 is coming from very far beneath the ground, a
clear signal that something big is happening that hasn’t happened in
Yellowstone in our lifetime.From LA Times

It’s up, up and away for ancient trapped helium at Yellowstone

LATimes:By Monte MorinFebruary 19, 2014, 10:15 a.m.

Steam
plumes rise above thermal features along the Firehole River at
Yellowstone National Park. Researchers with the U.S. Geological Survey
determined that the famed national park was releasing hundreds — if not
thousands — of times more helium than anticipated. (Ken McGee / U.S.
Geological Survey )

In areas where there is little groundwater or movement in Earth’s crust, helium-4
can remain trapped and build up over time. This is especially true at
Yellowstone, where inactive rocks, or what geologists call “craton,”
have been estimated to be 2.5 billion years old. (The park is located
primarily in Wyoming.) Things began to change roughly 2 million years
ago, however, when hot magma intruded on the crustal system from below
and triggered several enormous volcanic eruptions, the most recent about
640,000 years ago.For scientists, there are important implications to the recent
developments at Yellowstone. Helium and other noble gases are used to estimate groundwater residence times—for
example, scientists assume that the more helium-4 present in water, the
longer that water has been sitting in the rocks surrounding it.But the study of helium at Yellowstone shows that some of these
assumptions—specifically helium-4 produced by the steady decay of
elements found only within the rocks and sediments of the local aquifer —
aren’t quite right. Helium can suddenly come into a system from
unexpected places—a pocket of ancient rock, for instance, or a magma
source — so the dates in past calculations, particularly those from
aquifers in volcanic regions or near earthquake faults, might be way off
because of that extra helium. Scientists, though, are used to dealing
with new data that changes long-held theories; that’s the nature of
science, after all.One of the largest earthquakes in the US this week, at just M3.6,
occurred close to Yellowstone crater, on 11 February. The area, which
overlies a hotspot (where hot magma from the mantle rises to the
surface) is characterized by frequent earth tremors, which often occur
in clusters (or ‘swarms’) such as those of 2004, 2009 and 2010.WHAT TO TAKE AWAY FROM THIS NEWS1) The ground inside the gigantic mouth of the Yellowstone Super Volcano is rising and moving southeastward.2) Helium -4, not normally present, has suddenly appeared at Yellowstone in unbelievably large amounts never seen before.3) When Helium -4 was seen at other volcanoes, it appeared shortly before major eruptions of those volcanoes.4) Prior to most volcanic eruptions, earthquakes occur near the
volcano and just this past week, one of the largest earthquakes in the
US at just M3.6, occurred close to Yellowstone crater, on 11 February.Naysayers beware, the evidence is stacking up. if you’re waiting for
an mass-media announcement….it has now happened and wont get any more
direct. These words don’t come lightly from experts who appreciate that
such statements – if wrong – can undermine the jobs these scientists do.We have previously (within the last week) been warned an eruption could occur suddenly with no warning….that was the warning!All those living locally should not expect anything more but the evidence above!!Tectonically speaking, Yellowstone lies to the east of most of the
major earthquake zones which characterize western North America and the earthquake swarms around Yellowstone are related to movements of the magma which lies beneath.Residents of the Yellowstone area, however, probably wish researchers
would just hurry up and figure out whether or not the
supervolcano that’s simmering below them and last erupted 640,000 years
ago is going to blow again anytime soon.